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TRANSCRIPT
TYPES
INSTRUCTIONS GEH.1788L
TIME OVERCURRENT RELAYS
GENERAL ELECTRIC
‘V
IAC53AIAC53BIAC53C
IA C5 3 RIAC54AIAC54B
TOP PIVOTTAP PLUGSEAL- INUNITHOLDINGCOIL
SEAL- INTARGET
SEAL-IN -.
UNITSTATIONARYCONTACT.L FET
SEAL-IN -
UNITSTATIONARYCONTACT,RIGHT
SEAL INMOVINGCONTACTASSEMBLY
LA..
GEH-1788 Tvne IAC Time Overcurrent Relay
TAP BLOCK
--TIME DIAL
DISK SIIAET
MA I NMOVINGCONTACT
MA! NSEAT IONARYBPUSH ANDCONTACTASSEMBLY
MAGNET
Co
(.4(—4
Co
LI..
Fig. I The Induction Unit for Type IAC Re’ays (Front View)
OISKANDSHAFT —
LOWERJEWEL SCREW/
CoCo(-.4CoC’,
Co
LII)>0
Fig. 2 The Induction Unit for Type IAC Relays (Rear View)
2
TIME OVERCURRENT RELAYSTYPE IAC
INTRODUCTION
The Types 1AC53 and 1AC54 relays are timeovercurrent relays with a very-inverse time characteristic. They are employed to protect againstovercurrent on single-phase and poly-phase circuits.The various relays described in this instruction hookdiffer in the number of circuits they close, and if aninstantaneous unit and/or an a-c tripping unit isincluded.
These relays consist of an induction unit or aninduction unit with an instantaneous unit which per-
mits instantaneous tripping for exteremely high currents, or an induction unit with an a-c tripping unit f oruse where d-c power is unavailable or a-c tripping ispreferred. Since practically all Type TAC relays arecomposed of various combinations of the above (thatis, the induction unit, the instantaneous unit and thea-c tripping unit), theyare, for convenience, described separately in the following text. The above tableindicates the units comprising each type and also liststhe internal connections andoutlineandpaneldrillingdiagrams.
INDUCTION UNIT
INTRODUCTION
The induction unit is the basic unit in all TypeIAC relays. Figs. 1 and 2 show the induction unitmounted in the cradle. These units are of the induction-disk construction type. Thediskisactuatedby acurrent operating coil on a laminated U-magnet. Thedisk shaft carries the moving contact which completesthe alarm or trip circuit when it touches the stationary contact or contacts. The disk shaft is restrainedby a spiral spring to give the proper contact-closingcurrent and its motion is retarded by a permanentmagnet acting on the disk to give the correct timedelay.
There is a seal-in unit mounted on the front tothe left of the shaft. This unit has its coil in seriesand its contacts in parallel with the main contactssuch that when the main contacts -close the seal-inunit picks up and seals in. When the seal-in unitpicks up, it raises a target into view which latchesup and remains exposed until released by pressinga button beneath the lower left corner of the cover.
APPLICATIONThe induction unit is the main unit in all Type
IAC relays, supplying the very inverse time delaycharacteristics of the relay and sounding an alarm ortripping the breakers for overload currents whichcause it to close its contacts.
OPERATING CHARACTERISTICSThe induction unit may have one or two circuit-
closing contacts which close as the current increasesto the pick-up value as set on the tap block. Thetime delay in closing the contacts is determined bythe setting of the time dial (Fig. 1). The time-current characteristics are shown in Fig. 3.
RATINGSThe induction unit is designed to use any one of
four operating coils, each having a different combination of taps as follows, 4,5,6,7,8,10,12, and 16amperes; 1.5,2.0, 2.5, 3.0, 4.0, 5.0 and 6.0 amperes;0.5, 0.6, 0.8, 1.0, 1.2, 1.5 and 2.0 amperes; 0.1,0.12, 0.16, 0.2, 0.24, 0.3 and 0.4 amperes.
T Contact Instan. A-C Trip Induc. Outline mt.ype Circuits Unit Unit Unit &P. D. Conn.
IAC53A()A One No No One Fig. 20 Fig. 12IAC53B(-)A One Yes No One Fig. 20 Fig. 13IAC53C(—)A One No Yes On Fiz. 20 Fig. 14iAC53R(-)A One Yes Yes One Fig. 20 Fig. 15IAC54A(-)A Two No No One Fig. 20 Fig. 16IACS4B(-)A Two Yes No One Fig. 20 Fig. 17
These nstruct1ons dc not purport to cover ad.) details or variations in equipment nor to provide forver) possible conLjn’’enc,, to be met in connection with installation, operation or zrkiintenance. Shouldrurtoer intormatlon be ds;red or should particular problems arise which ore not covered sufficienti) forthe purchaser’s purposes, the matter should be referred to the General Electric Compan.To Lb extent requIred the products described herein ireE applicable ANSI, IEEE and NEMA standards;out no sacs assurance is qi von with respect to c,ca1 codes and ordinances because theq varq greati q.
3
GEH-1788 Type IAC Time Overcurrent Relay
-
. . .1 1 I I I I 7 I III A II II II I * • IIIa! I I I II!II
0 ST BIAS
IIMT UNIT I lIST UNIT
0.5-4.0
I. 5—12.0
2-16
TItlE 661 TAPS
C. 5,0. 6,0. 7,0.8, I. 0, 1.2, I. 5, 2. 0, 2. 3. 0, ‘4.0
5,2.012.5,3.0,5.0,40,6.0,7.0,8.0, 0, 2
2. Q, 2.5,3.0,4.0,5.0,6.0,7.0,8. 0, 10.0, 12, 6
U,
C
VU,
a
VS
AOJ US TB PH TO
lOST. UNIT
CON TI N6005LY
A 030 S TA OLE
Figure 3 (088880210 (3]) Time—Current Curves for Type JAC Relays withVery-Inverse-Time Characteristics
WI
II.
ro
I0‘I
- EXTDED 1E (CO EP.IE)tI1IiI_It__.1__1__LI liii LI
0.5-4.0
2—IA
0-60
20-ISO
III
Am
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Ill
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I II m NWTIWW5
MULTIPLES OF RELAY TAP SETTING
I I I_PlI i i 1111111
4
rype 1AC Nme Overcurrent Relay GEH-1788
CALl F3RATIONr_ PLATE
ADJUSTABLEi-—- POLE PIECE
I NSTANTANEOUSUNiT
OPERATINGCOIL
TARGETSTATIONARYCONTACTS
- MOVINGCONTACTASSEMBLY
Fig. 4 Type AC Relay with an Instantaneous Unit(Front View)
Fig. 5 Type IAC Relay with an(Rear View)
A—C Trip Unit
BURDENSThe current-closing rating of the contacts is
30 amperes for voltages not exceeding 250 volts.The current-carrying ratings are affected by theselection of the tap on the target and seal-in coilas indicated in the following table:
Amperes, a-c or d-cFun c ti on
2-Amp Tap 0.2 Amp Tap
Tripping Duty 30 5Carry Continuously 3 0.3Operating Range 2-30 0.2-2Resistance 0.13 7Impedance at 60 cy 0.53 52
If the tripping current exceeds 30 amperes anauxiliary relay should be used, the connections beingsuch that the tripping current does not pass throughthe contacts or the target and seal-in coils of theprotective relay.
INTRODUCTIONThe’ instantaneous unit is a small instantaneous
hinge-type unit which may be mounted on the rightfront side of the induction unit (See Fig. 4). Itscontacts are normally connected in parallel withthe contacts of the main unit. Its coil is connectedin series with the operating coil of the main unit.
Burdens for the standard coils are given in thefollowing table. These are calculated burdens atfive amperes based on burden of minimum tap.
Volt-ampere burdens for the lowest tap on anyof the three coils can be determined for any valueof current, up to 20 times tap setting, from Fig. 6.
Coil Volt Imp.PFAmps Freq. Tap Amps Amps Ohms
4-16 60 4 5 2.0 0.08 0.5050 4 5 1.? 0.07 0.5025 4 5 1.3 0.05 0.61
1.5-6 60 1.5 5 14.5 0.58 0.4250 1.5 5 12.0 0.48 0.4225 1.5 5 9.0 0.36 0.55
0.5-2 60 0.5 s ios.o 4.20 0.3550 0.5 5 86.0 3.45 0.3425 0.5 5 82.0 3.28 0.55
*
0.1 5 3050 122 0.380.1-0.4
50 0.1 5 2546 102 0.36
When the current reaches a predeterminedvalue, the instantaneous unit operates, closing thecontact circuit and raising its target into view.The target latches in the exposed position untilreleased by pressing the button beneath the lowerleft-hand corner of the relay cover.
1-C.,LI)
0,
L
C.,C.,
LL)
INSTANTANEOUS UNIT
5
0 2 4 6 8 10 12 14 16 18 20
MULTIPLES OF MINIMUM PICK—UP CURRENTSATURATION CURVES FOR LO4EST TAPS OF
INDUCTION UN ITS ON VERY INVERSETYPE IAC RELAYS
Fig. 6 Saturation Curves for Lowest Taps of tne Induction Unit of Type IAC Re’ays with
Very—Inverse—Time Characteristics
26
24
22
20
16
14
GEH-1788 Type TAC Time Overcurrent Relay
V0LTAGE
6 Or.,
12
50-
10
25.-u
8
6
TAPRANGE
0.5—2.0AMPS.
TA PRANGE1.5—6.0AMPS..
TAP. RANGE
4—16AMPS.
4
6O
2
50,
0
00.3‘C
0
260’5025
6
Type IAL’ Time Overcurrent Relay UEH-1788
L)
(I-?
LJ
0.030
0.025
0.020
.01
0.010
0.005
0
MULTIPLES OF PICK—UP
8 9 10
Fig. IA (K-6306872 [5]) Time-Current Characteristics for Original Instantaneous Unit
III SE1941C RAT!DINSTM4TM4)S 1411
I0
Fig. 7B (0208A869 5-1) Time-Current Characteristics for the 91i-G” Unit
0 1 2 3 4 5 6 7
.5 2 3 ‘4 5 6 7 6
lJULTlPtS F PIUP
7
GEI-I-1788 Type IAC Time Overcurrent Relay
APPLICATION
The instantaneous unit is used on certain TypeIAC relay models to provide instantaneous trippingfor current exceeding a predetermined value.
OPERATING CHARACTERISTICS
* The instantaneous unit operates over a four—
to—one range and has its calibration stamped ona scale mounted beside the adjustable pole piece.Time—current characteristics are shown in Fig.7A for the instantaneous unit used before 1977.In 1977 the instantaneous unit was modified tomake it have a higher seismic rating. The newinstantaneous unit can be identified by the marking “Hi-C” moulded into the front moulding justabove the target windows. The time—currentcharacterisLic for the “Hi—C” unit is shown inFig. 73.
RATINGS
The instantaneous unit is designed to usethe coils listed below;
Coil Freq Amp Volt- Imp. P.F.Amp Ohms
0.5-2 60 360 14.4 0.74
1-4 60 90 3.6 0.77
2-8 60 5 22.5 0.90 0.8325 5 8.0 0.32 0.83
4-16 60 5.63 0.225 0.8750 5 4.77 0.191 0.8740 5 3.93 0.157 0.8825 5 2.37 0.095 0.88
7—28 60 5 1.68 0.067 0.88
10-40 60 5 0.83 0.033 0.9550 5 0.80 0.032 0.9525 5 0.68 0.027 0.98
20-80 60 5 0.20 0.008 0.9550 0.20 0.008 0.9525 5 0.18 0.007 0.98
A-C TRIPPING UNIT
INTRODUCTIONThe a-c tripping unit is a Type REA relay unit
designed to energize a circuit-breaker trip coilfrom its associated current transformer upon theoperation of the main unit of the Type IAC relay. Ittransfers the current from the secondary of thecurrent transformer into the trip coil and removesthe current from the trip coil when the breaker trips.
The tripping unit is mounted on the rear of theframe opposite the tapped operating coil of the induction unit (see Fig. 5). The operation of this unitis illustrated in Fig. 11. The secondary current
circulates through the induction unit currentcoUandthe main coil of the Type REA auxiliary tripping unit,returning through the Type REA contacts to the current transformer. Normally, most of the flux gener -
ated by the main Type REA coil passes through theupper limb of the magnetic structure and holds thearmature firmly against this limb. When the contactsof the induction unit close, the shorting coil of theType REA unit is short-circuited and current flowsin this coil by transformer action, causing a redistribution of flux which actuates the armature and theType REA contacts. The opening of the Type REAcontacts causes the secondary current to flow throughthe trip coil which trips the breaker.
8 * Indicates revision
UIP EType IAC Time Overcurrent Relay GEH-1788
Figure 8 (x-6375667 [2]) External Connections ofThree Type IAC53A Relays Used for Phase-to-Phase and Ground Overcurrent Protection of a
3—Phase Circuit
—C 8LS
Figure 9. (K6375668-1) External Connections ofThree Type IAC53A Relays used in Conjunctionwith Tripping Reactors for Protection of a 3-Phase
Circuit
Device Function Numbers for Use with ALLExternal Diagrams
5051SIN52SITC
A
Instantaneous UnitOvercurrent Relay, Type IACGround Overcurrent Relay, Type IACPower Circuit BreakerSeal-in Unit, with TargetTrip CoilAuxiliary Contact, closedwhen breaker closes
Figure 10. (K-6375669-6) External Connections ofThree Type IAC53R Relays Used For 3-Phase
Circuit Protection
2
3
9
GI1-lI8 Type IAC Time Overcurrent Relay
RECEIVING, HANDLING AND STORAGE
.c ITIP UNIrNOM.ALLYCLOSE 0C(JI41SIC1 S
These relays, when not included as a part of a
control panel will be shipped in cartons designed to
protect them against damage. Immediately upon
receipt of a relay, examine it for any damage
sustained in transit. If injury or damage resulting
from rough handling is evident, file a damage claim
at once with the transportation company and promptly
notify the nearest General Electric Apparatus Sales
Office.
Reasonable care should be exercised in unpack-
ing the relay in order that none of the parts are
injured or the adjustments disturbed.
If the relays are not to be installed immed
lately, they should be stored in their original car
tons in a place that is free from moisture, dust
and metallic chips. Foreign matter collected on
the outside of the case may find its way inside
when the cover is removed and cause trouble in
the operation of the relay.
iNSTALLATION
LOCATION
The location should be clean and dry, free from
dust and excessive vibration, and well lighted to
facilitate inspection and testing.
MOUNTING
* The relay should be mounted on a vertical
surface. The outline and panel diagram is shown
in Fig. 20.
CONNECTIONS
The internal connection diagrams for the various
relay types are shown in Figs. 12 to 17 inclusive.
Typical wiring diagrams are given in Figs. 8 to
10 inclusive.
One of the mounting studs or screws should be
permanently grounded by a conductor not less than
No. 12 B & S gage copper wire or its equivalent.
INSPECTION
At the time of installation, the relay should
be inspected for tarnished contacts, loose screws,
or other imperfections. If any trouble is found,
it should be corrected in the manner desctibed
under MAINTENANCE.
APPLICATION
The a-c tripping unit is used in Type IAC relays
where a reliable direct-current tripping source is
not available and it is necessary to trip the breaker
from the current-transformer secondary.
RATINGS
The a-c tripping unit has a continuous rating of
five amperes but will operate on a minimum current
of 3.5 amperes. It should be used with three-
ampere trip coils. The contacts of these units will
transfer current- transformer secondary current up
to 100 amperes. For applications where the sec
ondary current exceeds 100 amperes, the Type
REA11B relay, which has contacts rated 200 am
peres, can be used in conjunction with Type TAC
overcurrent relays. The Type REA11B is not
mounted inside the Type TAC case.
BURDENS
Burdens of the Type REA unit are given in the
following table:
Impedance PFVolt-
Frequency Amps in Ohms Amperes
60 5 0.49 0.80 12.2
50 5 0.33 0.80 8.3
25 5 0.23 0.62 5.8
AC TRIP UNISSHORTINGCOIL
I—
Is,
‘.0
C 1RIP UNI I —
lAIN COIL
0
* Fig. II Diagram l1ustrating Operation of Type
IAC Relays having an A—C Tripping Unit
10 * Indicates Revision
0
•1
o0
‘0
SEAI—IN(iN I
0
ZSHORT FINGER‘00’0(N
Type IAC Time Overcurrent Relay GEH-1788
0’
C’.’‘.0
‘Si
Fig. i’ (K—6209660—7) Internal Connections ForType IAC53C Relay (Front View)
A—C fRIUN I T
INSTANTUN’ I
I NOUCT ONUN T
S
06
C)
01
6
Fig. 12 Internal Connections for Type IAC53ARelay (Front View)
• SHORT FINGER
Fig. 13 Internal Connections for Type IAC53BRelay (Front View)
SEAL—INUN IT
INDUCT IUN I T
•IN I I
DUCT IONU N I
3
6
* Fig. IS Internal Connections for Type IAC53RRelay (Front View)
* Indicates Revision U
OEH-1gti Type TAC Nme ()vercurrent k(elay
NOTE AFTER ENGAGING AUXILIARY BRUSH, CONNECTING PLUG
TRAVELS 1/4 INCH BEFORE ENGAGING THE MAIN BRUSH ON
THE TERMINAL BLOCK
ci AL—II
SE AL NIII!
I I ON
1 i/i
IL7UJ
2
I NI)UCT IONUI,
= SHOPT FINGEA
I SOUCT ION
I NSTANT.III, I F
NL1
Fig. 16 internarconnections for Type IAC5LA
CAUTION:
Every circuit in the drawout case has an
auxiliary brush. It is especially important on
C)6
SHORT FINGER
Fig. 17 Internal Connections for Type IAC54B
current circuits and other circuits with shorting
bars that the auxiliary brush be bent high enoughto engage the connecting plug or test plug beforethe main brushes do. This will prevent CT sec
ondary circuits from being opened.
‘1
r,3
ot?J
CD
-n
a’
‘,00’0
-n
CD
CDC)I’)cJC)C..)CD
CONNECTING PLUG MAIN BRUSH CONNECTING BLOCK
AUXILIARY BRUSH -- TERMINAL BLOCK’\
SHORTING SAR—
Fig. ia cutaway of Drawout Case Showing Position of Auxiliary Brush
12
Type LkC Time Overcurrent Relay GEH- 1788
ADJUSTMENTS
TARGET AND SEAL-IN UNIT
For trip coils operating on currents rangingfrom 0.2 to 2.0 amperes at the minimum controlvoltage, set the target and seal-in tap screw Inthe 0.2-ampere tap.
For trip coils operating on cuçrents rangingfrom 2 to 30 amperes at the minimum controlvoltage place the tap screw in the 2-ampere tap.
The tap screw is the screw holding the right-hand stationary contact of the seal-in unit. Tochange the tap setting, first remove the connectingplug. Then, take a screw from the left-handstationary contact and place it in the desired tap.Next, remove the screw from the other tap andplace it in the left-hand contact. This procedure isnecessary to prevent the right-hand stationarycontact from getting out of adjustment. Screwsshould not be in both taps at the same time.
INDUCTION UNIT
CURRENT SETTING
The current at which the contacts operate maybe changed by changing the position of the tap plugin the tap block at the top of the relay. Screw thetap plug firmly into the tap marked for the desiredcurrent (below which the unit is not to operate).
When changing the current setting of the unit,remove the connecting plug to short-circuit thecurrent-transformer secondary circuit. Next,screw the tap plug into tap marked for the desiredcurrent and then replace the connecting plug.
The pickup of the unit for any current tap isadjusted by means of a spring-adjusting ring. Thering may be turned by inserting a tool in the notchesaround the edge. By turning the ring, the operatingcurrent of the unit may be brought into agreementwith the tap setting employed, if for some reason,this adjustment has been disturbed. This adjustmentalso permits any desired setting intermediate between the various tap settings to be obtained. Theunit is adjusted at the factory to close its contactsfrom any time-dial position at a minimum currentwithin five per cent of the tap plug setting. Theunit resets at 90 per cent of the minimum closingvalue.
TIME SETTING
The setting of the time dial determines thelength of time the unit requires to close its contacts when the current reaches the predeterminedvalue. The contacts are just closed when the dialis set on 0. When the dial is set on 10, the diskmust travel the maximum amount to close the
contacts and therefore this setting gives the maximum time setting.
The primary adjustment for the time of operation of the unit is made by means of the timedial. However, further adjustment is obtained bymoving the permanent magnet along Its supportingshelf; moving the magnet toward the main shaft ofthe unit decreases the time, while moving it awayIncreases the time.
If selective action of two or more relays isrequired, determine the maximum possible short-circuit current of the line and then choose a timevalue for each relay that differs sufficiently toinsure the proper sequence in the operation of theseveral circuit breakers. Allowance must bemade for the time involved in opening each breakerafter the relay contacts close. For this reason,unless the circuit time of operation is known withaccuracy, there should be a dfifference of about 0.5second (at the maximum current) between relayswhose operation is to be selective.
EXAMPLE OF SETTING
The time and current settings of the over-current unit can be made easily and quickly. Eachtime value shown in Fig. 3 indicates the timerequired for the contacts to close with a particulartime-dial setting when the current is a prescribednumber of times the current-tap setting. In orderto secure any of the particular time-current settingsshown in FIg. 3, insert the removable plug in theproper tap receptacle and adjust the time-dial tothe proper position. The following example illustrates the procedure in making a relay setting:
Assume a Type IAC relay is used in a circuitwhere the circuit breaker should trip on a sustainedcurrent of approximately 450 amperes; also, thebreaker should trip in 1.0 second on a short-circuitcurrent of 3750 amperes. Assume further thatcurrent transformers of 60/1 ratio are used.
The current tap setting is found by dividing theminimum primary tripping current by the currenttransformer ratio. In this case, 450 divided by 60equals 7.5 amperes. Since there is no 7.5 amperetap, the 8-ampere tap is used. To find the propertime-dial setting to give 1.0-second time delay at3750 amperes, divide 3750 by the transformerratio. This gives 62.5 amperes secondary currentwhich is 7.8 times the 8-ampere netting. By referring to the time current curves (Fig. 3), itwill be seen that 7.8 times the minimum operatingcurrent gives 1.0-second time delay when the relayis set on the No. 6 time-dial setting.
The above results should be checked by meansof an accurate timing device. Slight readjustmentof the dial can be made until the desired time isobtained.
13
GEH-1’?88 Type IAC Time Overcurrent Relay
Aid in making the proper selection of relay
settings may be obtained on application to the near
est Sales Office of the General Electric Company.
INSTANTANEOUS UNIT
Select the current above which is desired to
have the instantaneous unit operate and set the
adjustable pole piece so that the top of its hexagon
head is even with the desired calibration on the
scale. To raise or lower the pole piece, loosen the
locknut and turn it up or down and then tighten in
position.
The contacts should be adjusted to make at
about the same time and to have approximately
1/8 inch wipe. This adjustment can be made by
loosening the screws holding the stationary contacts
and moving the contacts up or down as required.
A-C TRIPPING UNIT
The a-c tripping unit should not require any
attention other than occasional cleaning of the con
tacts. However, if the adjustment should be lost,
it may be restored as follows:
CONTACT ADJUSTMENT
With the unit de-energized, the movable contact
should lie against the stationary contact with enough
tension to always insure a good closed circuit. The
movable contact brush should be free of any kinks.
Also this contact brush should not touch the com
pound bushing supported from the top of the arma
ture. The brass backing strip should be adjusted
to allow a 1/16-inch contact gap with the contacts
open. The compound bushing support should be
adjusted to allow the back of the movable contact
to just touch the brass backing strip when the
armature operates to open the contacts. The outer
edge of the compound bushing should be approximate
ly 1/32 inch from the inner edge of the stationary-
contact supporting post.
ARMATURE ADJUSTMENT
Loosen the two screws which hold the armature-
assembly bracket to the bottom of the frame. Slide
the bracket in or out, whichever is necessary, until
the armature just touches the pole face of the upper
core. In this position, the armature should be
about 1/32 inch from the pole face of the lower
core. Next, slide the bracket in until the armature
leaf spring assumes a vertical position and is
INDIC4TI4G LIGHT MLCIIECKIUG PICKUP OP
I CTAN1 ANELLS UN IT
Fig.19 Test Connections for Testing Pickup l Time Curve
of IAC Relays
spaced clear of both armature and the vertical tip
of the bracket. With this setting, the armature should
be flush against the pole face of both cores, and
should put enough pressure on the armature to
always return it flush against the pole face of the
lower core after each operation of the unit. This
alignment is important as a slight gap between
armature and pole face of the lower core after the
unit operates may cause contacts to open momen
tarily, dropping the relay target when the circuit
breaker is reclosed. Under these conditions, the
momentary opening of the contacts is due to the
shock of the armature being pulled In against the
pole face when the lower coil is energized. Ex
cessive pressure on the armature, caused by the
bracket being pushed in too far, will result in too
high a pickup or chattering of the movable contact
during operation of the unit. Tighten the bracket
screws securely after the proper adjustment has
been obtained.
OPERATION
The pick-up current should be checked on one Before the relay is put into service it should be
or more of the taps and the time should be checked given a check to determine that factory adjust-
for one or more dial settings. ments have not been disturbed. The time dial
will be set at zero before the relay leaves the
Recommended test connections for the above factory. It is necessary to change this setting in
test are shown in Fig. 19. order to open the relay contacts.
1 NOICAI IN’ L GIlT- riN CHCC P YUP
UA I U’ 2
oq
‘0
7.’
‘0
xA:3 IELT FiG
VATIARLE PE5STOE
TO T.MEP“START”
ITO ACCURATELY REP2WCERELAY CHARACTERISTICSALL TESTS SHOULD HEMADE WITH RELAY IN CASE.
yIN. RFn20MENDEC vCLTS,120 AT RATED FRE)UENCY
14
Type TAC Time Overcurrent Relay GEH-1788
MAINTENANCE
DISK AND BEARINCS
The lower jewel may be tested for cracks byexploring its surface with the point of a fine needle.The jewel should be turned up until the disk iscentered in the air gaps, after which it should belocked in this position by the set screw providedfor this purpose.
CONTACT CLEANING
For cleaning fine sliver contacts, a flexibleburnishing tool should be used. This consists of aflexible strip of metal with an etched roughenedsurface, resembling in effect a superfine file. Thepolishing action is so delicate that no scratches areleft, yet corroded material will be removed rapidly
and thoroughly. The flexibility of the tool insuresthe cleaning of the actual points of contact.
Fine silver contacts should not be cleaned withknives, files, or abrasive paper or cloth. Knives orfiles may leave scratches which increase arcing anddeterioration of the contacts. Abrasive paper or clothmay leave minute particles of insulating abrasivematerial in the contacts and thus prevent closing.
The burnishing tool described is included in thestandard relay tool kit obtainable from the factory.
PERIODIC TESTING
It is recommended that pickup of all units bechecked at least once every six months.
ACCEPTANCE TESTS
A. MAIN UNIT
Pickup
ELECTRICAL
Set the relay at the 0.5 time dial position andminimum tap, Using the test connections of Figure19 the main unit should close its contacts within±5% of tap value current.
Time Test
Set the relay at the 5.0 time dial position andminimum tap. Using the test connections of Figure19, and applying 5 times pickup current, the relayshould operate at 1.31 seconds ±7%. With 2 timespickup current applied the operating time should be7.21 seconds ±7%. With 10 times pickup currentapplied the operating time should be 0.72 seconds± 7%.
B. INSTANTANEOUS UNIT
Pickup
With gradually applied current the unit shouldpickup at ±10% of the minimum calibration. Thereshould be no more than ±5% variation on repeatedpickup checks. Be sure the target has been resetafter each test.
C. TARGET SEAL IN UNIT
Pickup
The unit should pickup between 75 and 100% oftap value with the main unit contacts closed.
Dropout
Open the main unit contacts, the seal in unitshould remain picked up. Reduce the current to 25%of tap value; the unit should drop out.
RENEWAL PARTSIt is recommended that sufficient quantities ofrenewal parts be carried in stock to enable theprompt replacement of any that are worn, broken,or damaged.
When ordering renewal parts, address thenearest Sales Office of the General Electric Company, specify the quantity required and describingthe parts by catalogue numbers as shown in RenewalParts Bulletin No. GEF-3883.
15
GEH-l7R Type IAC Time Overcurrent Relay
TYPICAL DIM.
INCHESMM
PANEL LOCATIONSEMI-FLUSH SURFACE
1 1259MM
___
3 LI76MM
VIEW SHOWING ASSEMBLY OF HARDWARE
FOR SURFACE MTCi. ON STEEL PANELS
8 375212MM
PANEL DRILL.LNGFOR SURFACE MOUNTING
FRONT VIEW
Fig. 20 (K-62092fl f81) Outline and Panel Drilling Dimensions for Relay Types IAC Relays
(11/91) (200)
r
—(2) 5/16—18 STUDSFOR SURFACE MTG.
4) 10-32 X 3/8MTG, SCREWS 1 0—32
STUDS
1/4 DRILL4 HOLES6MM
S TUDNUMBERING
9753100000
0000010 8 6 2
6. 187157MM
BACK VI[’J
5/8 DRILL2 HOLES
CUTLIUT
CUTOUT MAY REPLACEDRILLED HOLES
1. 15629MM
____
8431 72MM
5 . 687144MM
PANEL DRILLINGFOR SEMI-FLUSH MOUNTING
FRONT VIE4
.50012MM
3/4 DRILL10 HOLES
19MM
CA SE- 5/16-18 STUD
GENERAL ELECTRIC CO., POWER SYSTEMS MANAGEMENT BUSINESS DEPT.. MALVERN, PA. 19356